摘要
信息社会的飞速发展对信息存储、加工、传输能力提出了与日俱增的迫切需求。随着“摩尔定律”逐渐逼近极限,半导体工业急需寻求新的解决方案。二维材料因为原子级厚度的尺寸特点,表面无悬挂键的结构优势加上极大比表面积导致的对电、光等调控手段的敏感性被认为是“后摩尔定律”时代半导体工业新的突破口。松山湖材料实验室引进一批国内外顶级科学家,组建二维材料团队,以基础科研为根基,以工程应用为导向,重点攻关其中关键问题。其目标在于取得有世界级重大影响力的科研成果,布局我国二维材料产业。
The rapid development of the information society puts forward an ever-increasing urgent need for information storage,processing,and transmission capabilities.With the ending of Moore’s Law,the semiconductor industry urgently needs to find new solutions.Lowdimensional materials are considered to be a new breakthrough in the semiconductor industry in the post-Moore era,because of the size characteristics of atomic-level thickness,the structural advantage of no dangling bonds on the surface,and the sensitivity to electrical and optical control methods caused by a large specific surface area.Songshan Lake Materials Laboratory has introduced a group of top scientists and established a low-dimensional materials team.The research of the team,based on basic science and guided by engineering applications,focuses on tackling key issues.The goal is to achieve world-class influential scientific research results,and to deploy China low-dimensional materials industry.
作者
张广宇
龙根
林生晃
冼乐德
姜岩
吴昊
王硕培
李娜
ZHANG Guangyu;LONG Gen;LIN Shenghuang;XIAN Lede;JIANG Yan;WU Hao;WANG Shuopei;LI Na(Songshan Lake Materials Laboratory,Dongguan 523808,China;Institute of Physics,Chinese Academy of Sciences,Beijing 100190,China;Beijing National Laboratory for Condensed Matter Physics,Beijing 100190,China;School of Physical Sciences,University of Chinese Academy of Sciences,Beijing 100049,China)
出处
《中国科学院院刊》
CSSCI
CSCD
北大核心
2022年第3期368-374,共7页
Bulletin of Chinese Academy of Sciences
基金
国家重点研发计划(2020YFA0309600)
国家自然科学基金青年科学基金项目(12104330)
广东省重点领域研发计划(2020B0101340001)
松山湖材料实验室开放课题(2021SLABFN02)。
关键词
二维材料
电子器件
柔性器件
自旋电子学
光电
能源
low-dimensional materials
electronic devices
flexible devices
spintronics
optical electronics
energy
